Solved papers for JEE Main & Advanced Physics Simple Harmonic Motion JEE PYQ-Simple Harmonic Motion

JEE PYQ-Simple Harmonic Motion Total Questions - 76

1) In a simple harmonic oscillator, at the mean position [AIEEE 2002]

A)

kinetic energy is minimum, potential energy is maximum

B)

both kinetic and potential energies are maximum

C)

kinetic energy is maximum, potential energy is minimum

D)

both kinetic and potential energies are minimum

View Answer
2) A child swinging on a swing in sitting position, stands up, then the time period of the swing will [AIEEE 2002]

A)

increase

B)

decrease

C)

remain same

D)

increase if the child is long and decrease if the child is short

View Answer
3) A mass M is suspended from a spring of negligible mass. The spring is pulled a little and then released so that the mass executes SHM of time period T. If the mass is increased by m, the time period becomes \[5T/3\], then the ratio of \[\frac{m}{M}\] is                                                                                  [AIEEE 2003]

A)

\[\frac{3}{5}\]

B)

     \[\frac{25}{9}\]

C)

\[\frac{16}{9}\]

D)

     \[\frac{5}{3}\]

View Answer
4) Two particles A and B of equal masses are suspended from two massless springs of spring constants \[{{k}_{1}}\] and \[{{k}_{2}}\], respectively. If the   maximum   velocities,   during oscillations are equal, the ratio of amplitudes of A and B is            [AIEEE 2003]

A)

\[\sqrt{{{k}_{1}}/{{k}_{2}}}\]

B)

     \[{{k}_{1}}/{{k}_{2}}\]

C)

\[\sqrt{{{k}_{2}}/{{k}_{1}}}\]

D)

     \[{{k}_{2}}/{{k}_{1}}\] \[\]

View Answer
5) The length of a simple pendulum executing simple harmonic motion is increased by 21%. The percentage increase in the time period of the pendulum of increased length is                                                                      [AIEEE 2003]

A)

\[11%\]

B)

     \[21%\]

C)

\[42%\]

D)

     \[10.5%\]

View Answer
6) The displacement of a particle varies according to the relation\[x=4\,(\cos \pi \,t+\sin \pi t)\]. The amplitude of the particle is          [AIEEE 2003]

A)

\[-4\]

B)

     4

C)

\[4\sqrt{2}\]

D)

     8

View Answer
7) A body executes simple harmonic motion. The potential energy (PE), the kinetic energy (KE) and total energy (TE) are measured as function of displacement\[x\]. Which of the following statements is true? [AIEEE 2003]

A)

KE is maximum when \[x=0\]

B)

TE is zero when \[x=0\]

C)

KE is maximum when \[x\] is maximum

D)

PE is maximum when \[x=0\]

View Answer
8) The total energy of a particle, executing simple harmonic motion is               [AIEEE 2004]

A)

\[\propto x\]

B)

     \[\propto \,{{x}^{2}}\]

C)

Independent of\[x.\]

D)

\[\propto {{x}^{1/2}}\] where,\[x\]is the displacement from the mean position.

View Answer
9) A particle of mass m is attached to a spring (of spring constant\[k\] and has a natural angular frequency\[{{\omega }_{0}}\]. An external force F(t) proportional to \[\cos \omega t(\omega \ne {{\omega }_{0}})\]is applied to the oscillator. The time displacement of the oscillator will be proportional to [AIEEE 2004]

A)

\[\frac{m}{\omega _{0}^{2}-{{\omega }^{2}}}\]

B)

     \[\frac{1}{m(\omega _{0}^{2}-{{\omega }^{2}})}\]

C)

\[\frac{1}{m(\omega _{0}^{2}+{{\omega }^{2}})}\]

D)

     \[\frac{m}{\omega _{0}^{2}+{{\omega }^{2}}}\]

View Answer
10) In forced oscillation of a particle, the amplitude is maximum for a frequency\[{{\omega }_{1}}\]of the force, while the energy is maximum for a frequency \[{{\omega }_{2}}\]of the force, then [AIEEE 2004]

A)

\[{{\omega }_{1}}={{\omega }_{2}}\]

B)

\[{{\omega }_{1}}>{{\omega }_{2}}\]

C)

\[{{\omega }_{1}}<{{\omega }_{2}}\]when damping is small and\[{{\omega }_{1}}>{{\omega }_{2}}\] when damping is large

D)

\[{{\omega }_{1}}<{{\omega }_{2}}\]

View Answer
11) The function\[\sin (\omega t)\]represents [AIEEE 2005]

A)

a periodic, but not simple harmonic motion with a period \[2\pi /\omega \]

B)

a periodic, but not simple harmonic motion with a period \[\pi /\omega \]

C)

a simple harmonic motion with a period \[2\pi /\omega \]

D)

a simple harmonic motion with a period \[\pi /\omega \]

View Answer
12) Two simple harmonic motions are represented    by    the    equations \[{{y}_{1}}=0.1\sin \left( 100\pi t+\frac{\pi }{3} \right)\]and\[{{y}_{2}}=0.1\,\cos \pi t.\] The phase difference of the velocity of particle 1 with respect to the velocity of particle 2 is                         [AIEEE 2005]

A)

\[\frac{-\pi }{6}\]

B)

   \[\frac{\pi }{3}\]

C)

\[\frac{-\pi }{3}\]

D)

     \[\frac{\pi }{6}\]

View Answer
13) If a simple harmonic motion is represented by \[\frac{{{d}^{2}}x}{d{{t}^{2}}}+\alpha x=0,\] its time period is                              [AIEEE 2005]

A)

\[\frac{2\pi }{\alpha }\]

B)

     \[\frac{2\pi }{\sqrt{\alpha }}\]

C)

\[2\pi \alpha \]

D)

     \[2\pi \sqrt{\alpha }\]

View Answer
14) The bob of a simple pendulum is a spherical hollow ball filled with water. A plugged hole near the bottom of the oscillating bob gets suddenly unplugged. During observation, till water is coming out, the time period of oscillation would [AIEEE 2005]

A)

first increase and then decrease to the original value

B)

first decrease and then increase to the original value

C)

remain unchanged

D)

increase towards a saturation value

View Answer
15) The maximum velocity of a particle, executing simple harmonic motion with an amplitude 7 mm, is 4.4 m/s. The period of oscillation is                                                                                                                   [AIEEE 2006]

A)

0.01s

B)

     10s

C)

0.1s

D)

     100s

View Answer
16) Starting from the origin, a body oscillates simple harmonically with a period of 2 s. After what time will its kinetic energy be 75% of the total energy?                                                                                                 [AIEEE 2006]

A)

\[\frac{1}{6}s\]

B)

     \[\frac{1}{4}s\]

C)

\[\frac{1}{3}s\]

D)

     \[\frac{1}{12}s\]

View Answer
17) A coin is placed on a horizontal platform which undergoes vertical simple harmonic motion of angular frequency\[\omega \]. The amplitude of oscillation is gradually increased. The coin will leave contact with the platform for the first time [AIEEE 2006]

A)

at the mean position of the platform

B)

for an amplitude of \[g/{{\omega }^{2}}\]

C)

for an amplitude of\[{{g}^{2}}/{{\omega }^{2}}\]

D)

at the highest position of the platform

View Answer
18) The displacement of an object attached to a spring and executing simple harmonic motion is given by\[2x+3y+z=1\]\[x+3y+2z=2\] metre. The time at which the maximum speed first occurs is [AIEEE 2007]

A)

0.5 s

B)

     0.75 s

C)

0.125s

D)

                 0.25s

View Answer
19) A point mass oscillates along the x-axis according to the law\[{{\log }_{3}}e\].If the acceleration of the particle is written as \[{{\log }_{e}}3\]then [AIEEE 2007]

A)

\[f(x)={{\tan }^{-1}}(\sin x+\cos x)\]

B)

\[(\pi /4,\pi /2)\]

C)

\[(-\pi /2,\pi /4)\]

D)

\[(0,\pi /2)\]

View Answer

20)

Two springs, of force constants\[{{I}_{0}}=\frac{E}{R}=\frac{5}{5}=1\,A\]and\[\tau =\frac{L}{R}=\frac{10}{5}=2\,s\]are connected to a mass m as shown. The frequency of oscillation of the mass is\[t=2s\]. If\[I=(1-{{e}^{-1}})A\]both\[(\therefore -t/\tau =\frac{-2}{2}=-1)\]and\[J=\frac{i}{\pi {{a}^{2}}}\]are made four times their original values, the frequency of. oscillation becomes [AIEEE 2007]

\[\oint{B.dl}={{\mu }_{0}}.{{i}_{enclosed}}\]

\[x=2\times {{10}^{-2}}\]

\[cos\text{ }\pi t\]

View Answer

21) A particle of mass m executes simple harmonic motion with amplitude a and frequency v. The average kinetic energy during its motion from the position of equilibrium to the end is                                                            [AIEEE 2007]

A)

\[p=\frac{{{E}_{0}}{{I}_{0}}}{2}\]

B)

     \[P=\sqrt{2}{{E}_{0}}{{I}_{0}}\]

C)

\[{{10}^{-3}}\mu C\]

D)

     \[(\sqrt{2},\sqrt{2})\]

View Answer
22) If\[x,\text{ v}\]and a denote the displacement, the velocity and the acceleration of a particle executing simple harmonic motion of time period T, then, which of the following does not change with time?                  [AIEEE 2009]

A)

\[{{a}^{2}}{{T}^{2}}+4{{\pi }^{2}}{{v}^{2}}\]

B)

     \[aT/x\]

C)

\[aT+2\pi v\]

D)

     \[aT/v.\]

View Answer
23) A mass M, attached to a horizontal spring, executes S.H.M. with amplitude \[{{A}_{1}}\]. When the mass M passes through its mean position then a smaller mass m is placed over it and both of them move together with amplitude \[{{A}_{2}}\]. The ratio of\[\left( \frac{{{A}_{1}}}{{{A}_{2}}} \right)\]is                       [AIEEE 2011]

A)

\[{{\left( \frac{M+m}{M} \right)}^{1/2}}\]

B)

     \[\frac{M}{M+m}\]

C)

\[\frac{M+m}{M}\]

D)

     \[{{\left( \frac{M}{M+m} \right)}^{1/2}}\]

View Answer
24) Two particles are executing simple harmonic motion of the same amplitude A and frequency \[\omega \] along the x-axis. Their mean position is separated by distance \[{{X}_{0}}({{X}_{0}}>A)\]. If the maximum separation between them is \[({{X}_{0}}+A)\], the phase difference between their motion is                             [AIEEE 2011]

A)

\[\frac{\pi }{6}\]

B)

                 \[\frac{\pi }{2}\]

C)

\[\frac{\pi }{3}\]

D)

     \[\frac{\pi }{4}\]

View Answer
25) A wooden cube (density of wood d) of side \['\ell '\] floats in a liquid of density\['\rho '\] with its upper and lower surfaces horizontal. If the cube is pushed slightly down and released, it performs simple harmonic motion of period T'. Then, T is equal to:                                                                                                                         [AIEEE 11-05-2011]

A)

\[2\pi \sqrt{\frac{\ell d}{\rho g}}\]

B)

                 \[2\pi \sqrt{\frac{\ell \rho }{dg}}\]

C)

\[2\pi \sqrt{\frac{\ell d}{(\rho -d)g}}\]

D)

     \[2\pi \sqrt{\frac{\ell \rho }{(\rho -d)g}}\]

View Answer
26) The displacement \[y(t)=A\sin (\omega t+\phi )\] of a pendulum for \[\phi =\frac{2\pi }{3}\] is correctly represented by [JEE ONLINE 19-05-2012]

A)

B)

C)

D)

View Answer

27)

A ring is suspended from a point S on its rim as shown in the figure. When displaced from equilibrium, it oscillates with time period of 1 second. The radius of the ring is (take \[g={{\pi }^{2}}\]) [JEE ONLINE 19-05-2012]

0.15m

1.5m

1.0m

0.5m

View Answer

28) The amplitude of a damped oscillator decreases to 0.9 times its original magnitude in 5s. In another 10s it will decrease to \[\alpha \] times its original magnitude, where \[\alpha \] equals:                                            [JEE MAIN 2013]

A)

0.7

B)

     0.81

C)

0.729

D)

     0.6

View Answer
29) An ideal gas enclosed in a vertical cylindrical container supports a freely moving piston of mass M. The piston and the cylinder have equal cross sectional area A. When the piston is in equilibrium, the volume of the gas is \[{{V}_{0}}\] and its pressure is\[{{P}_{0}}\]. The piston is slightly displaced from the equilibrium position and released. Assuming that the system is completely isolated from its surrounding, the piston executes a simple harmonic motion with frequency:     [JEE MAIN 2013]

A)

\[\frac{1}{2\pi }\frac{{{A}_{\gamma }}{{P}_{0}}}{{{V}_{0}}M}\]

B)

     \[\frac{1}{2\pi }\frac{{{V}_{0}}M{{P}_{0}}}{{{A}^{2}}\gamma }\]

C)

\[\frac{1}{2\pi }\sqrt{\frac{{{A}^{2}}\gamma {{P}_{0}}}{M{{V}_{0}}}}\]

D)

     \[\frac{1}{2\pi }\sqrt{\frac{M{{V}_{0}}}{{{A}_{\gamma }}{{P}_{0}}}}\]

View Answer
30) Two simple pendulums of length 1m and 4mrespectively are both given small d is placement in the same direction at the same instant. They will be again in phase after the shorter pendulum has completed number of oscillations equal to: [JEE ONLINE 09-04-2013]

A)

      2

B)

     7

C)

5

D)

     3

View Answer
31) Bob of a simple pendulum of length \[l\] is mode of iron. The pendulum is oscillating over a horizontal coil carrying direct current. If the time period of the pendulum is T then: [JEE ONLINE 23-04-2013]

A)

      \[T=2\pi \sqrt{\frac{l}{g}}\] and damping is smaller than in air alone.

B)

     \[T=2\pi \sqrt{\frac{l}{g}}\] and damping is larger than in air alone.

C)

     \[T>2\pi \sqrt{\frac{l}{g}}\] and damping is smaller than in air alone.

D)

     \[T<2\pi \sqrt{\frac{l}{g}}\] and damping is larger than in air alone.

View Answer
32) If the time period \[t\] of the oscillation of a drop of liquid of density \[d\]radius \[r,\]vibrating under surface tension s is given by the formula \[t=\sqrt{{{r}^{2b}}{{s}^{c}}{{d}^{a/2}}.}\] It is observe that the time period is directly proportional to \[\sqrt{\frac{d}{s}.}\] The value of \[b\] should therefore be:                        [JEE ONLINE 23-04-2013]

A)

      \[\frac{3}{4}\]

B)

     \[\sqrt{3}\]

C)

\[\frac{3}{2}\]

D)

     \[\frac{2}{3}\]

View Answer
33) A uniform cylinder of length L and mass M having cross-sectional area A is suspended, with its length vertical, form a fixed point by a mass less spring, such that it is half submerged in a liquid of density \[\sigma \] at equilibrium position. When the cylinder is given a downward push and released, it stats oscillating vertically with a small amplitude. The time period T of the oscillations of the cylinder will be:                                                                  [JEE ONLINE 25-04-2013]

A)

      Smaller than \[2\pi \] \[{{\left[ \frac{\operatorname{M}}{\operatorname{k}+\operatorname{A}\sigma g} \right]}^{1/2}}\]

B)

\[2\pi \sqrt{\frac{\operatorname{M}}{\operatorname{k}}}\]

C)

Larger than \[2\pi {{\left[ \frac{\operatorname{M}}{(\operatorname{k}+\operatorname{A}\sigma g)} \right]}^{1/2}}\]

D)

     \[2\pi {{\left[ \frac{\operatorname{M}}{(\operatorname{k}+\operatorname{A}\sigma g)} \right]}^{1/2}}\]

View Answer
34) A particle moves with simple harmonic motion in a straight line. In first \[\tau s\], after starting from rest it travels a distance a, and in next \[\tau s\] it travels 2a, in same direction, then: [JEE MAIN 2014]

A)

amplitude of motion is 4a

B)

time period of oscillations is \[6\tau \]

C)

amplitude of motion is 3a

D)

time period of oscillations is \[8\tau \]

View Answer
35) A pipe of length 85 cm is closed from one end. Find the number of possible natural oscillations of air column in the pipe whose frequencies lie below 1250 Hz. The velocity of sound in air is 340 m/s.                             [JEE MAIN 2014]

A)

6

B)

     4

C)

12

D)

     8

View Answer
36) An experiment is performed to obtain the value of acceleration due to gravity g by using a simple pendulum of length L. In this experiment time for 100 oscillations is measured by using a watch of 1 second least count and the value is 90.0 seconds. The length L is measured by using a meter scale of least count 1 mm and the value is 20.0 cm. The error in the determination of g would be:            [JEE ONLINE 09-04-2014]

A)

1.7%

B)

     2.7%

C)

4.4%

D)

     2.27%

View Answer

37)

Two bodies of masses 1 kg and 4 kg are connected to a vertical spring, as shown in the figure. The smaller mass executes simple harmonic motion of angular frequency 25rad/s, and amplitude 1.6 cm while the bigger mass remains stationary on the ground. The maximum force exerted by the system on the floor is (take \[g=10m{{s}^{-2}}\]) [JEE ONLINE 09-04-2014]

20 N

10 N

60 N

40 N

View Answer

38) The amplitude of a simple pendulum, oscillating in air with as mall spherical bob, decreases from 10 cm to 8 cm in 40seconds. Assuming that Stokes law is valid, and ratio of the coefficient of viscosity of air to that of carbon dioxide is 1.3. The time in which amplitude of this pendulum will reduce from 10 cm to 5 cm in carbon dioxide will be close to (In 5 =1.601, In 2 = 0.693).                                                                           [JEE ONLINE 09-04-2014]

A)

231 s

B)

     208 s

C)

161 s

D)

     142 s

View Answer
39) A particle which is simultaneously subjected to two perpendicular simple harmonic motions represented by\[;x={{a}_{1}}\cos \omega t\]and\[y={{a}_{2}}\cos 2\omega t\]traces a curve given by: [JEE ONLINE 09-04-2014]

A)

B)

C)

D)

View Answer
40) The angular frequency of the damped oscillator is given by,\[\omega =\sqrt{\left( \frac{k}{m}-\frac{{{r}^{2}}}{4{{m}^{2}}} \right)}\]where k is the spring constant, m is the mass of the oscillator and r is the damping constant. If the ratio\[\frac{{{r}^{2}}}{mk}\]is 8%, the change in time period compared to the undamped oscillator is approximately as follows: [JEE ONLINE 11-04-2014]

A)

increases by 1%

B)

increases by 8%

C)

decreases by 1%

D)

decreases by 8%

View Answer
41) Which of the following expressions corresponds to simple harmonic motion along a straight line, where x is the displacement and a, b, c are positive constants?                                                       [JEE ONLINE 12-04-2014]

A)

\[a+bx-c{{x}^{2}}\]

B)

     \[b{{x}^{2}}\]

C)

\[a-bx+c{{x}^{2}}\]

D)

     \[-bx\]

View Answer
42) A body is in simple harmonic motion with time period half second (T = 0.5 s) and amplitude one cm (A = 1 cm). Find the average velocity in the interval in which it moves form equilibrium position to half of its amplitude.              [JEE ONLINE 19-04-2014]

A)

4 cm/s

B)

     6 cm/s

C)

12 cm/s

D)

    16 cm/s

View Answer
43) A pendulum made of a uniform wire of cross sectional area A has time period T. When an additional mass M is added to its bob, the time period change to \[{{T}_{M}}.\]If the Youngs modulus of the material of the wire is Y then\[\frac{1}{Y}\]is equal to: [JEE MAIN 2015] (g = gravitational acceleration)

A)

\[\left[ 1-{{\left( \frac{{{T}_{M}}}{T} \right)}^{2}} \right]\frac{A}{Mg}\]

B)

\[\left[ 1-{{\left( \frac{T}{{{T}_{M}}} \right)}^{2}} \right]\frac{A}{Mg}\]

C)

\[\left[ {{\left( \frac{{{T}_{M}}}{T} \right)}^{2}}-1 \right]\frac{A}{Mg}\]

D)

\[\left[ {{\left( \frac{{{T}_{M}}}{T} \right)}^{2}}-1 \right]\frac{Mg}{A}\]

View Answer

44) For a simple pendulum, a graph is plotted between its kinetic energy (KE) and potential energy (PE) against its displacement d. Which one of the following represents these correctly? [JEE MAIN 2015] (graph are schematic and not drawn to scale)

Solved papers for JEE Main & Advanced Physics Simple Harmonic Motion JEE PYQ-Simple Harmonic Motion

done JEE PYQ-Simple Harmonic Motion Total Questions - 76

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JEE PYQ-Simple Harmonic Motion

JEE PYQ-Simple Harmonic Motion Total Questions - 76